Automated GMP-compatible production of universal CAR Tregs for organ-targeted tolerance induction

  1. Kavitha Lakshmi
  2. Alexandra von Jutrzenka-Trzebiatowski
  3. Liliana Loureiro
  4. Karla Elizabeth González Soto
  5. Katja Peter
  6. José Manuel Marín Morales
  7. Samikshya Santosh Nirmala
  8. Nicole Berndt
  9. Claudia Arndt
  10. Yueyuan Hu
  11. Jing-Wun Li
  12. Claudia Peitzsch
  13. Anna Taubenberger
  14. Rebekka Wehner
  15. Marc Schmitz
  16. Kristina Hölig
  17. Hinrich Abken
  18. Ezio Bonifacio
  19. Martin Bornhäuser
  20. Michael Bachmann
  21. Anja Feldmann
  22. Anke Fuchs
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Abstract

Background

Adoptive transfer of regulatory T cells (Tregs) has demonstrated safety, feasibility and early signs of efficacy in promoting immunological tolerance in inflammatory conditions such as graft-versus-host disease (GvHD). Chimeric antigen receptor (CAR)-engineered Tregs offer localized activation and suppression compared to polyclonal Tregs, but their clinical translation is limited by high manufacturing costs, lengthy developing times and fixed single-antigen specificity. To address these limitations, we employed the universal adapter Reverse CAR (RevCAR) system, which harbors a peptide epitope lacking intrinsic antigen specificity but provides flexibility in targeting through the use of an antigen-specific RevCAR Target Module (RevTM). As a proof-of-concept, we used a RevTM targeting carcinoembryonic antigen (CEA), which is highly expressed in the gastrointestinal (GI) tract, as a potential strategy to achieve localized immunosuppression in GI acute GvHD.

Methods

To support clinical translation, we established an automated, GMP-compatible, clinical-scale manufacturing process. Tregs were magnetically enriched from leukapheresis using the CliniMACS ® Plus, followed by high-purity sorting on the MACSQuant ® Tyto ® . The sorted cells were virally transduced and the RevCAR Tregs were expanded on the CliniMACS Prodigy ® to obtain clinically relevant cell numbers. The harvested products were evaluated for phenotype, stability, antigen specificity and suppressive function.

Results

Across five manufacturing runs, Tregs (CD4 + CD25 high CD127 low FOXP3 + ) with a median initial purity of 94% were expanded to achieve a median therapeutic yield of 602 × 10 6 cells. The final product maintained a high purity (median: 91.9%) and exhibited high RevCAR expression (median: 60% RevCAR + ). Mass cytometry analysis revealed that expanded RevCAR Tregs predominantly exhibited a central memory phenotype with high expression of functional and homing markers. Under experimental pro-inflammatory conditions, the cells maintained stable FOXP3 and Helios expression with minimal pro-inflammatory cytokine production. Importantly, RevCAR Tregs showed antigen-specific activation upon target engagement via the CEA-specific RevTM and robust, dose-dependent suppression.

Conclusion

The study establishes a scalable, GMP-compatible process for manufacturing pure, stable and functional universal RevCAR Tregs for clinical applications. Furthermore, the RevCAR system offers a promising approach toward an allogenic, off-the-shelf Treg therapy capable of treating diverse immune-mediated diseases with spatial precision.

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  1. Version published to 10.1186/s12967-025-07431-0
  2. Version published to 10.21203/rs.3.rs-7416434/v1 on Research Square